(* Title: HOLCF/Up2.ML
ID: $Id$
Author: Franz Regensburger
Copyright 1993 Technische Universitaet Muenchen
Lemmas for Up2.thy
*)
open Up2;
(* for compatibility with old HOLCF-Version *)
qed_goal "inst_up_po" thy "(op <<)=(%x1 x2. case Rep_Up(x1) of \
\ Inl(y1) => True \
\ | Inr(y2) => (case Rep_Up(x2) of Inl(z1) => False \
\ | Inr(z2) => y2<<z2))"
(fn prems =>
[
(fold_goals_tac [less_up_def]),
(rtac refl 1)
]);
(* -------------------------------------------------------------------------*)
(* type ('a)u is pointed *)
(* ------------------------------------------------------------------------ *)
qed_goal "minimal_up" thy "Abs_Up(Inl ()) << z"
(fn prems =>
[
(simp_tac (simpset() addsimps [less_up1a]) 1)
]);
bind_thm ("UU_up_def",minimal_up RS minimal2UU RS sym);
qed_goal "least_up" thy "? x::'a u.!y. x<<y"
(fn prems =>
[
(res_inst_tac [("x","Abs_Up(Inl ())")] exI 1),
(rtac (minimal_up RS allI) 1)
]);
(* -------------------------------------------------------------------------*)
(* access to less_up in class po *)
(* ------------------------------------------------------------------------ *)
qed_goal "less_up2b" thy "~ Iup(x) << Abs_Up(Inl ())"
(fn prems =>
[
(simp_tac (simpset() addsimps [less_up1b]) 1)
]);
qed_goal "less_up2c" thy "(Iup(x)<<Iup(y)) = (x<<y)"
(fn prems =>
[
(simp_tac (simpset() addsimps [less_up1c]) 1)
]);
(* ------------------------------------------------------------------------ *)
(* Iup and Ifup are monotone *)
(* ------------------------------------------------------------------------ *)
qed_goalw "monofun_Iup" thy [monofun] "monofun(Iup)"
(fn prems =>
[
(strip_tac 1),
(etac (less_up2c RS iffD2) 1)
]);
qed_goalw "monofun_Ifup1" thy [monofun] "monofun(Ifup)"
(fn prems =>
[
(strip_tac 1),
(rtac (less_fun RS iffD2) 1),
(strip_tac 1),
(res_inst_tac [("p","xa")] upE 1),
(asm_simp_tac Up0_ss 1),
(asm_simp_tac Up0_ss 1),
(etac monofun_cfun_fun 1)
]);
qed_goalw "monofun_Ifup2" thy [monofun] "monofun(Ifup(f))"
(fn prems =>
[
(strip_tac 1),
(res_inst_tac [("p","x")] upE 1),
(asm_simp_tac Up0_ss 1),
(asm_simp_tac Up0_ss 1),
(res_inst_tac [("p","y")] upE 1),
(hyp_subst_tac 1),
(rtac notE 1),
(rtac less_up2b 1),
(atac 1),
(asm_simp_tac Up0_ss 1),
(rtac monofun_cfun_arg 1),
(hyp_subst_tac 1),
(etac (less_up2c RS iffD1) 1)
]);
(* ------------------------------------------------------------------------ *)
(* Some kind of surjectivity lemma *)
(* ------------------------------------------------------------------------ *)
qed_goal "up_lemma1" thy "z=Iup(x) ==> Iup(Ifup(LAM x. x)(z)) = z"
(fn prems =>
[
(cut_facts_tac prems 1),
(asm_simp_tac Up0_ss 1)
]);
(* ------------------------------------------------------------------------ *)
(* ('a)u is a cpo *)
(* ------------------------------------------------------------------------ *)
qed_goal "lub_up1a" thy
"[|chain(Y);? i x. Y(i)=Iup(x)|] ==>\
\ range(Y) <<| Iup(lub(range(%i.(Ifup (LAM x. x) (Y(i))))))"
(fn prems =>
[
(cut_facts_tac prems 1),
(rtac is_lubI 1),
(rtac conjI 1),
(rtac ub_rangeI 1),
(rtac allI 1),
(res_inst_tac [("p","Y(i)")] upE 1),
(res_inst_tac [("s","Abs_Up (Inl ())"),("t","Y(i)")] subst 1),
(etac sym 1),
(rtac minimal_up 1),
(res_inst_tac [("t","Y(i)")] (up_lemma1 RS subst) 1),
(atac 1),
(rtac (less_up2c RS iffD2) 1),
(rtac is_ub_thelub 1),
(etac (monofun_Ifup2 RS ch2ch_monofun) 1),
(strip_tac 1),
(res_inst_tac [("p","u")] upE 1),
(etac exE 1),
(etac exE 1),
(res_inst_tac [("P","Y(i)<<Abs_Up (Inl ())")] notE 1),
(res_inst_tac [("s","Iup(x)"),("t","Y(i)")] ssubst 1),
(atac 1),
(rtac less_up2b 1),
(hyp_subst_tac 1),
(etac (ub_rangeE RS spec) 1),
(res_inst_tac [("t","u")] (up_lemma1 RS subst) 1),
(atac 1),
(rtac (less_up2c RS iffD2) 1),
(rtac is_lub_thelub 1),
(etac (monofun_Ifup2 RS ch2ch_monofun) 1),
(etac (monofun_Ifup2 RS ub2ub_monofun) 1)
]);
qed_goal "lub_up1b" thy
"[|chain(Y);!i x. Y(i)~=Iup(x)|] ==>\
\ range(Y) <<| Abs_Up (Inl ())"
(fn prems =>
[
(cut_facts_tac prems 1),
(rtac is_lubI 1),
(rtac conjI 1),
(rtac ub_rangeI 1),
(rtac allI 1),
(res_inst_tac [("p","Y(i)")] upE 1),
(res_inst_tac [("s","Abs_Up (Inl ())"),("t","Y(i)")] ssubst 1),
(atac 1),
(rtac refl_less 1),
(rtac notE 1),
(dtac spec 1),
(dtac spec 1),
(atac 1),
(atac 1),
(strip_tac 1),
(rtac minimal_up 1)
]);
bind_thm ("thelub_up1a", lub_up1a RS thelubI);
(*
[| chain ?Y1; ? i x. ?Y1 i = Iup x |] ==>
lub (range ?Y1) = Iup (lub (range (%i. Iup (LAM x. x) (?Y1 i))))
*)
bind_thm ("thelub_up1b", lub_up1b RS thelubI);
(*
[| chain ?Y1; ! i x. ?Y1 i ~= Iup x |] ==>
lub (range ?Y1) = UU_up
*)
qed_goal "cpo_up" thy
"chain(Y::nat=>('a)u) ==> ? x. range(Y) <<|x"
(fn prems =>
[
(cut_facts_tac prems 1),
(rtac disjE 1),
(rtac exI 2),
(etac lub_up1a 2),
(atac 2),
(rtac exI 2),
(etac lub_up1b 2),
(atac 2),
(fast_tac HOL_cs 1)
]);